A novel variant of <i>C12orf4</i> in a consanguineous Armenian family confirms the etiology of autosomal recessive intellectual disability type 66 with delineation of the phenotype

Hančárová, Miroslava; Babikyan, Davit; Bendová, Šárka; Midyan, Susanna; Prchalová, Darina; Shahsuvaryan, Gohar R.; Stránecký, Viktor; Sarkisian, Tamara; Sedláček, Zdeněk

doi:10.1002/mgg3.865

Cited by 3 publications

(3 citation statements)

References 20 publications

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“…Mass spectrometry revealed the five proteins as Tbck (101 kDa), Ppp1r21 (88 kDa), C12orf4 (64 kDa), Cryzl1 (39 kDa) and Gatd1 (23 kDa) (Figure 1B). For 3 of the 5 proteins human gene mutations have been reported (Beck-Wodl et al, 2018; Bhoj et al, 2016; Chong et al, 2016; Guerreiro et al, 2016; Hancarova et al, 2019; Loddo et al, 2020; Ortiz-Gonzalez et al, 2018; Philips et al, 2017; Rehman et al, 2019; Suleiman et al, 2018; Zapata-Aldana et al, 2019). For clarity, we will refer to the novel complex as the F ive-subunit E ndosomal R ab5 and R NA/ribosome intermediar Y (FERRY) complex, with the individual subunits being designated Fy-1 – Fy-5 (Figure 1B).…”

Section: Resultsmentioning

confidence: 99%

“…Even though the FERRY complex has not previously been identified, it may play an important role in brain function. Clinical studies on patients, with a mutation in the fy-1 (tbck) or fy-2 (ppp1r21) gene, show that loss of either of these proteins severely impairs brain development and function, causing symptoms such as a mental retardation, intellectual disability, hypotonia, epilepsy, and dysmorphic facial features resulting in a premature death of the patients (Bhoj et al, 2016; Chong et al, 2016; Guerreiro et al, 2016; Hancarova et al, 2019; Loddo et al, 2020; Ortiz-Gonzalez et al, 2018; Philips et al, 2017; Suleiman et al, 2018; Zapata-Aldana et al, 2019). Different studies report the accumulation of lipofuscin the human brain and further indicate disturbances in the endocytic system (Beck-Wodl et al, 2018; Rehman et al, 2019).…”

Section: Resultsmentioning

confidence: 99%

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The novel Rab5 effector FERRY links early endosomes with the translation machinery

Schuhmacher

Dieck

Christoforidis

et al. 2021

Preprint

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Local translation is vital to polarized cells such as neurons and requires a precise and robust distribution of different mRNAs and the translation machinery across the entire cell. The underlying mechanisms are poorly understood and important players are still to be identified. Here, we discovered a novel Rab5 effector complex which leads to mental retardation when genetically disrupted. The Five-subunit Endosomal Rab5 and RNA/ribosome intermediarY, FERRY complex localizes to early endosomes and associates with the translation machinery and a subset of mRNAs including mRNAs for mitochondrial proteins. It directly interacts with mRNA, thereby exhibiting different binding efficacies. Deletion of FERRY subunits reduces the endosomal localization of transcripts, indicating a role in mRNA distribution. Accordingly, FERRY-positive early endosomes harboring mRNA encoding mitochondrial proteins were observed in close proximity to mitochondria in neurons. Therefore, the FERRY complex plays a role for mRNA localization by linking early endosomes with the translation machinery.

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Section: Resultsmentioning

confidence: 99%

Section: Resultsmentioning

confidence: 99%

The novel Rab5 effector FERRY links early endosomes with the translation machinery

Schuhmacher

Dieck

Christoforidis

et al. 2021

Preprint

View full text Add to dashboard Cite

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“…variants have been reported in seven families, who were all consanguineous. Most of the variants were truncating as two frameshift variants, 5,7 one splice donor variant, 8 two nonsense variants 11,25 and one genomic rearrangement affecting two coding-exons, 9 whereas only one variant was a missense change. 9 These variants are shown schematically in Figure 1D.…”

Section: Discussionmentioning

confidence: 99%

A novel variant of C12orf4 linked to autosomal recessive intellectual disability type 66 with phenotype expansion

Rashvand

Kahrizi

Najmabadi

et al. 2022

The Journal of Gene Medicine

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Background: Intellectual disability (ID) is a hallmark of many rare disorders that are highly heterogeneous and complex. A large number of specific genes are involved in development of this heterogeneity, and each of these genes is only found in a small number of patients. This weakens the definition of the predominant genotype and the phenotypic characteristics associated with that gene. Autosomal recessive ID type 66 (OMIM #618221) is one of these very rare diseases created by defects in the C12orf4 gene.Methods: The present study included two patients from an Iranian family with initial diagnosis of non-syndromic ID, aiming to identify the possible genetic cause(s), and whole-exome sequencing (WES) was performed for the proband. The obtained variant was confirmed by Sanger sequencing and co-segregated in the family. Results:The patients carried a novel pathogenic splicing variant called c.1441-1G>A in exon 12 of the C12orf4 gene (NM_001304811). They predominantly manifested ID, behavioral problems, speech impairment and dysmorphic facial features, some of which had not been reported in previous studies.Conclusions: A novel pathogenic splicing variant was identified named c.1441-1G>A in the C12orf4 gene. To date, only seven families have been reported with defects in this gene. Previous studies have not highlighted the exact clinical manifestations of these patients; thus, the present study could contribute to a better delineation of the genotype-phenotype correlation and interpretation of very rare variants of the gene.

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The Rab5 effector FERRY links early endosomes with mRNA localization

et al. 2023

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A novel variant of C12orf4 in a consanguineous Armenian family confirms the etiology of autosomal recessive intellectual disability type 66 with delineation of the phenotype

Cited by 3 publications

References 20 publications

The novel Rab5 effector FERRY links early endosomes with the translation machinery

The novel Rab5 effector FERRY links early endosomes with the translation machinery

A novel variant of C12orf4 linked to autosomal recessive intellectual disability type 66 with phenotype expansion

The Rab5 effector FERRY links early endosomes with mRNA localization

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